Abstract
To characterize the ecology and physiology of common late Eocene–early Oligocene White River mammals, we analyzed the carbon and oxygen isotope composition of tooth enamel carbonate for six of the most abundant taxa: the perissodactyls Brontops (brontothere), Mesohippus (equid) and Subhyracodon (rhino); and the artiodactyls Merycoidodon (oreodont), Leptomeryx (leptomerycid) and Poebrotherium (camelid).
δ 13 C values of middle and rear molars (M2s and M3s) and premolars range from − 13.1‰ to − 7.7‰ (V-PDB), consistent with pure C3 diets. In the late Eocene, Mesohippus , Merycoidodon , and Leptomeryx show indistinguishable average δ 13 C values (∼ − 10‰). In contrast, Brontops and Subhyracodon exhibit lower (− 11.2‰) and higher (− 8.7‰) values, respectively. Early Oligocene values for Mesohippus and Merycoidodon remain indistinguishable from each other and lower than the value of Leptomeryx , Poebrotherium , and Subhyracodon (∼ − 8.5‰). These results likely indicate niche separation in terms of habitat preference between the investigated sympatric taxa. More specifically, assuming a δ 13 C value of atmospheric CO 2 of − 5.5‰, our data suggest a preference of Brontops for mesic forested areas, of Mesohippus and Merycoidodon for woodlands, and of Subhyracodon and Poebrotherium for more open habitats (e.g., grasslands). The higher Oligocene versus Eocene average δ 13 C exhibited by Leptomeryx possibly reflects a preference of the new Oligocene species L. evansi for more open and/or xeric habitats relative to the Eocene species L. speciosus .
Late Eocene and early Oligocene average δ 18 O of Mesohippus , Merycoidodon , Leptomeryx , and Subhyracodon are similar (∼ 25‰, V-SMOW), possibly indicating comparable water dependency for these taxa. In contrast, the higher δ 18 O of Poebrotherium (26.6‰) suggests lower water dependency whereas the lower δ 18 O of Brontops (23.0‰) may result from a high water dependency or, more likely, from its preference for humid habitats. Because hind-gut fermentation in perissodactyls requires high water intake, whereas fore-gut fermentation does not, our results might indicate the presence of fore-gut fermentation in early Oligocene camelids but its absence or incomplete development in late Eocene–early Oligocene oreodonts and leptomerycids.
Original language | American English |
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Pages (from-to) | 22-37 |
Number of pages | 16 |
Journal | Palaeogeography, Palaeoclimatology, Palaeoecology |
Volume | 257 |
Issue number | 1-2 |
DOIs | |
State | Published - 7 Jan 2008 |
Keywords
- Ecology
- Eocene-Oligocene
- Mammals
- Stable isotopes
- Tooth enamel
EGS Disciplines
- Earth Sciences
- Geophysics and Seismology